1015 lines
44 KiB
Plaintext
1015 lines
44 KiB
Plaintext
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WHATVGA version 2.00 29/Sep/95
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Copyright 1991-95 Finn Th›gersen
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All Rights Reserved
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Command line switches:
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whatvga [+acumos] [-ncr] [=1024] [/a]
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where +chipset forces WHATVGA to proceed as if this chipset was found.
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The test for this chip set will be executed in order
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to check for memory and revision.
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No other chipsets will be tested.
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-chipset ensures that the tests for this chipset will NOT be
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executed. Useful if a chipset is misidentified
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or some earlier test gives problems.
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=kbytes Forces the number of Kbytes of video RAM on the
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adapter to the specified value.
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/a Run automatic test and write results to a file.
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The user responds with Y or N to each test and can
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enter comments to the individual tests.
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On startup you may be asked to select the video system
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to test (say if you have a VESA driver loaded).
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If the program seems to halt for more than a few seconds
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try to press the enter key.
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The recommanded way to use the program is to start it
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with no command line parameters and play with it a bit.
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See that the chipset, memory and DAC are ID'd properly
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and that you can display at least some super VGA modes.
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Then run the program with /a to do the full test.
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For the /a test, the system should be as "clean" as
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possible, as TSRs (including mouse and keyboard drivers)
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and memory managers can sometimes affect the results.
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Try booting from a floppy.
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Comments should only be entered when something is wrong
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or needs clarification. Ie. there is no need to enter
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"Fine" or "All ok" thats what the yes/no queries are for.
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When something is wrong try to be as descriptive as
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possible (remember, I can't see the screen).
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/c Disabled clock detection. Clock detection can lock up
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some systems. For instance S3 systems will lock up if
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a 0Hz clock is selected.
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/d Debug option. display the name of each chipset before it
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is tested.
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/i Ignore the configuration file (WHATVGA.CFG)
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/p PCI test. Disables the test for PCI devices. Note that
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WHATVGA has not been tested with with PCI type 2 busses.
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Note that if you use the + - or = commandline options the program should
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pause, displaying:
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Forced to .....
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Press a key to continue
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If this does NOT happen the option(s) probably were not recognised.
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The options can also be set from a configuration file. On startup WHATVGA
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checks for the file WHATVGA.CFG in the current directory. The file consists of
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the general options at the top and then the chipset specific options in one
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section for each chipset started by a [chipset] header.
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Most options are of the keyword=value type. The keyword is not case-sensitive.
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For Yes/No options a value of YES, Y, ON or 1 (all not case-sensitive) will
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be takes as YES, all other values as NO. Leading and trailing spaces are
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ignored. The command line switches will win out if there is a conflict.
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General Options above the first chipset header:
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AutoTest =Yes/No ;Enables the Auto Test feature if set to YES
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ClockTest=Yes/No ;Disables Clock testing if set to NO
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Debug =Yes/No ;Enables debug output if set to YES
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PCItest =Yes/No ;Disables the PCI test if set to NO (same as /p).
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Memory =number ;Forces the amount of video memory (in Kbytes)
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Ignore =chipset ;Causes WHATVGA to skip the tests for this chipset.
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Any number of IGNORE= lines can be added.
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Chipset =chipset ;Forces WHATVGA to assume the chipset was found
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Sample file:
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Debug=Off ;No DEBUG option
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AutoTest=0 ;No AutoTest
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ClockTest=N ;Disable clock test
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Memory=1024 ;Force video Memory to 1Mb
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[S3] ;S3 chipset section
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-103 ;Disable mode 103h
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+4322 732 498 P8 1000 ;Adds mode 4322h, a 732x498 P8 mode with 1000
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; bytes per scanline (use 0 bytes/scanline for
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; default width)
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If you have problems with the identification/startup:
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- The screen goes blank or all white...
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Try to run: WHATVGA /d
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This will display the name of each chipset and waits for
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you to press the Enter key BEFORE the chipset is tested.
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When you have found the offending chipsets, try to run:
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WHATVGA -Chips&Tech (assuming Chips&Tech is the culprit)
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Report the problem.
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- The chipset is misidentified.
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Try to run: WHATVGA -chipset
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where chipset is one of the following:
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Chips&Tech Chips & Technologies
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Paradise Paradise/Western Digital
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Video7 Video7
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Tseng Tseng Et3000, ET4000, ET4000/W32
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Trident Trident 8800/8900/9000...
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Everex Everex
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ATI ATI VGA Wonder/Graphics Ultra +/Pro
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Genoa Genoa 6x00 (not 5x00, 7x00 or 8x00)
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Oak Oak 37/67/77/87
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Cirrus Cirrus 5x0/6x0
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Ahead Ahead A&B
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NCR NCR 77c2x
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Yamaha Yamaha 6388
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S3 S3 86c series
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ALG Avance Logic ALG series
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MXIC MXIC 860x0
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Realtek Realtek
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PRIMUS Primus P2000
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Cirrus54 Cirrus CL-GD54xx
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Cirrus64 Cirrus CL-GD64xx
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Weitek Weitek W5x86
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COMPAQ Compaq IVGA/AVGA/QVision
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UMC UMC 85c408, 85c418
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HMC HMC HM86304
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WeitekP9 Weitek P9x00 series
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XGA XGA compatibles
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AGX IIT AGX series
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Mach32 ATI Mach32
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Mach64 ATI Mach64
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Matrox Matrox VGA
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ARK ARK Logic
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Acer Acer M31x5
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Sierra Sierra SC15064 (Falcon/64)
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MediaVision Media Vision Pro Graphics
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MGA Matrox MGA Accelerator
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Alliance Alliance ProMotion
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- Memory Size is identified wrong.
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Run WHATVGA =2048 (or how many Kbytes you have)
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Report the problem.
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Whatvga has several options in the main menu:
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1 Test standard VGA
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Allows you to test the standard VGA video modes.
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Draws a test pattern, including a color palette
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and writes basic information as text on the display.
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This option is not shown for non-VGA devices.
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See 2) for the details.
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2 Test extended modes
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Allows you to test the extended video modes of the adapter.
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Draws a test pattern, including a color palette
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and writes basic information as text on the display.
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On the upper and left edge every hundred pixels is marked.
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when you press a key the testpattern is drawn again, this time
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in the largest size the available video memory will support
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("Virtual Screen"), allowing you to scroll around in the display
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using the arrow keys. You should be able to move in the entire
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pattern, but not to move so far right or down that the display wraps.
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If you can move past the right edge (or can't reach it) then the
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scroll function probably needs a factor 2 (divide or multiply)
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in the SetVStart function.
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When you press the Enter key a textscreen is shown with the
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statistics for the mode, this screen also shown if the rutine
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to analyse the mode from the register values (AnalyseMode) reaches
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the same result. If not the values are shown as "Calculated".
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By pressing "d" or "D" you can see a dump of all the VGA (and extended)
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registers. The registers can be saved (appended) to the file REGISTER.VGA
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by pressing "f" or "F".
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3 Search for modes
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Sequentially attempts to set modes 14h to 7Fh, each time testing
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if the mode was succesfully set. If so the testpattern is drawn
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and the mode is analysed.
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5 Hardware Cursor test
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This item attempts to place a 32x32 hardware Cursor in the
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selected mode. The cursor can be moved around on the screen
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with the arrow keys.
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6 BitBLT test
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This item first draws the testpattern, then draws the color palette with
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BitBLT operations at the centre of the display, then makes four blockcopies
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via BitBLT of the central palette, 90 degrees apart, each slightly
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overlapping the original. As the edges of the source is modified during
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the copying these changes will (in part) be copied to the new images.
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7 Line Draw test
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This item attempts to draw lines from the center of the screen
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in a "wheel" using different colors.
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8 Read/Write bank test
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This item copies the left half of the screen to the right half, reversing
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the line order, thus copying from "low" to "high" banks using seperate
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read/write banks.
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0 Exit
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Items 5-8 are only present if WHATVGA believes the adapter supports the
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function, though you can always try the test by pressing the key.
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Special functions for test purposes (may hang your PC or worse):
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B Register Bit test.
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You are asked for the base register (such as 3C0h, 3C4h, 3CEh or
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3d4h), starting index and starting bit number (0-7).
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Then you select the mode for the test.
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Now the test pattern is drawn in the desired mode, but using the
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entire video memory (like the "virtual screen").
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The selected bit will be changed for ~0.5 sec, then restored for
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another 0.5 sec. This repeats until another bit is selected by
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-, + or * or the test is stopped by the Esc key.
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- steps one bit back, + one forward - both changing the index if
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necessary. * advances to bit 0 of the next index.
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This can be used to figure out the function of individual bits, the
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Display Start extension bits being the obvious example (and the
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intended target), but also clock bits etc.
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!!NOTE!! this may hang your PC or expose your video card or monitor
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to conditions beoynd their intended operational specifications.
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While damage to your monitor or video card is extremely unlikely
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(I haven't heard of a confirmed case since the old IBM MDA monitor),
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it is theoretically possible and my insurence company refuses to
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recognize any responsibility what so ever :-).
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Hanging your PC is however a very real possibility.
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Note the bit you were testing, reboot (power off may be required)
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and restart from the NEXT bit.
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D DAC test submenu
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Tests various special DAC functions:
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2 - Test 24bit (16Mcolor) mode
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3 - Test 32bit (16Mcolor RGBa) mode
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5 - Test 15bit (32Kcolor) mode
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6 - Test 16bit (64Kcolor) mode
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Tests the switching between 256color mode and 15/16/24/32bit mode.
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Besides the normal 256color test pattern a RGB color scale in the
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selected mode is also shown (this will look weird in 256color mode)
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Pressing + toggles between the two modes.
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Esc or Enter terminates the test.
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8 - Test 6/8bit mode
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A test pattern is drawn in the selected 256color mode. The palette
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is set up to use the full 256 of 16m palette (256 shades of each
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basic color). When the DAC is in 6bit mode there are only 64 shades,
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thus the color bars will "break". The + key switches between 6bit
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and 8bit DAC mode. Esc or Enter terminates the test.
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A - DAC Cmd register Analysis
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This test examines the DAC command register which is accessed by
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reading 3C6h several times. Note that only some DACs have this
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register! The PEL register (3C6h) is set to 4 different patterns
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(55h, AAh, 5Ah and A5h) and for each pattern 3C6h is read 8 times.
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If the DAC has a command register it will show after 4 or 5 reads.
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Some DACs have more than one "hidden" register at 3C6h and some DACs
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revert to the PEL register after the first read of the command
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register, while others allow multiple reads of the command register.
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Then the command register is tested for read/writability, first bit
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by bit (0 to 7) this is reported as: "Dac Single Bit Mask: EF" where
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EF indicates that all but bit 4 is Read/Writable, then all values (0
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to 255) are tested and reported as: "DAC mask: AA R/W: BB Change: CC
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Set: DD Clear: EE" where AA shows the bits actually tested - FFh =
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all (Some DACs have problems with some bits combinations), BB are the
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Read/Writable bits, CC the ones that changed but aren't R/W, DD the
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bits that are always set and EE the ones that are always clear.
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If any patterns causes unexpected results they are shown as: " AA =
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BB" where AA is the value written and BB the one read back.
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All fields above are in hex.
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C - Test Command register
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Allows you to test the behaviour of the DAC command register. Apart
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from the usual 256color test pattern a number of color scales are
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drawn in (from top to bottom) 15, 16, 24 and 32 bit color format.
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These will of course look hopeless in 256color mode, but allows you
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to detect if you switch to one of these modes. The F1 - F8 keys will
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toggle bits 0 - 7 of the command register. The value you are
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currently trying to program, is shown at the top.
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G - Gamma Test
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Allows you to test if your DAC can handle gamma correction in Hi-
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and True color modes. You are asked to select a Hi- or Truecolor
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mode, the test pattern is drawn and now one of the basic colors
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(Red, Green and Blue) will be inverted every time + is pressed.
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M - Select base mode
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Selects the mode to use for the DAC tests from the available 256
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color modes. By default the 640x480 mode is used.
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A test pattern is drawn in the selected 256color mode.
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The palette is set up to use the full 256 of 16m palette (256
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shades of each basic color). When the DAC is in 6bit mode there
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are only 64 shades, thus the color bars will "break".
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The keys 6 and 8 switches between 6bit and 8bit DAC mode
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(if the 8bit DAC mode works :-) ).
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Esc or Enter terminater the test.
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Currently this only works for the AT&T (20c490/491), Sierra 24bit
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(SC15021/25), Trident TDK8001 and Brooktree (Bt477,Bt484/5) DACs.
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R Register Read/Write test.
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You are asked for the base register (such as 3C0h, 3C4h, 3CEh or 3d4h),
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the mask used for the index register. The mask is entered as an 8 character
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string where each character controls one bit of the index (bit 0 first) and
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can be 'x' (don't care), '0' (always 0), '1' (always 1) or ' ' (don't care
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if the bit is Read/Writable in the index register, 0 or 1 if it is always 0
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or 1). Any other characters are interpreted as ' '.
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Finally you are asked for the mode to use for the test. After the test a
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table showing the status of each bit tested is output starting from index 0
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bit 0. Each bit is shown as: '.' (Masked), '0' (Always 0), '1' (Always 1),
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'A' (Automatically changing), 'C' (Read/Writable, but changed by some other
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bit) or 'W' (Read/Writable).
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The tests:
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ID: Is the Chip Set, DAC and video memory identified correctly?
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Xres: Are the modes (standard and extended) displayed correctly?
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Display type, Switch settings and BIOS versions can cause
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some modes to be unavailable or out of sync.
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Scrl: Can you display and scroll in the Virtual Screen ?
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You should be able to move in the entire virtual screen,
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but not to move so far right or down that the display wraps.
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If you can move past the right edge (or can't reach it)
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we probably miss a factor of two in the SetVStart function.
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Also can you scroll horizontally in 1 pixel steps ?
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If the display wraps when the start crosses the middle (or 1/4)
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of memory we have a problem with the high bits (the Y variable)
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in the SetVStart function or with an enable bit.
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Also part of video memory can be inaccessible in modes that
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normally only use <half the memory causing the testpattern to
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be overwritten.
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Anal: Are the modes (particularly the extended ones) analysed
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correctly (Ie do the "Calc:" fields match the "List:" ones) ?
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Some modes, such as 2 and 4 color and mode 13h are hard to ID
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on many adapters.
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Cur: Is the HardWare cursor shown correctly and can it be moved
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around the display with the arrow keys ?
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The cursor should look like a snipers sights with a dot in the
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upper left corner.
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Blit: Is the central palette drawn correctly ? Are the secondary palettes
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copied correctly ?
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Line: Are the lines drawn from the middle to fill a rectangle ?
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RWbank: Do the two halfs of the screen match ?
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Adapters tested:
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Mem: ID: Xres: Scrl: Anal: Cur: Blit: Line: RWbank:
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Acer:
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M3135
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M3145
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Acumos: See Cirrus 5401 and 5402
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AVGA2 (5402) 512 Ok Ok Ok Ok Ok* NA NA NA
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Ahead: . . . . . . . . .
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V5000 A
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V5000 B 1M Ok Ok Ok Ok NA NA NA Ok
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Alliance (ProMotion):
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3210 1M Ok Ok Ok Ok
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Appian: . . . . . . . . .
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AGC-98032 2M No
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ARK Logic: . . . . . . . . .
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ARK1000VL 2M Ok Ok Ok* Ok Ok No No Ok
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ARK1000PV
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ARK2000PV 2M Ok Ok Ok* Ok Ok No No Ok
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ATI: . . . . . . . . .
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18800 NA NA NA
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18800-1 512 Ok Ok Ok Ok NA NA NA Ok
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28800-2 NA NA NA
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28800-4 NA NA NA
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28800-5 NA NA NA
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28800-6 1M Ok Ok Ok Ok NA NA NA Ok
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68800-3 (VGA):2M Ok Ok* Ok Ok NA NA NA Ok
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(ACC):2M Ok Ok Ok Ok* Ok Ok* Ok* Ok
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68800-6
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68800-LX
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68800-AX
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88000GX (VGA):1M* Ok Ok Ok* Ok NA NA NA Ok
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(ACC):4M Ok Ok* Ok* Ok Ok Ok* Ok* Ok
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Avance Logic: . . . . . . . . .
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ALG2101 1M Ok Ok Ok Ok Ok* Ok* Ok* Ok
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ALG2201 1M Ok Ok Ok Ok No No No Ok
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ALG2228 Ok Ok Ok Ok No No No Ok
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ALG2301 2M Ok Ok Ok Ok No No No Ok
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Chips&Tech: . . . . . . . . .
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82c450 512 Ok Ok Ok Ok NA NA NA NA
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82c451 NA
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82c452 512 Ok Ok Ok OK Ok NA NA NA
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82c453
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82c455
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82c456
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82c457
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F65510
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F65520
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F65530
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F65535
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F65540
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F65545
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F64200
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F64300 2M Ok Ok Ok Ok Ok NA
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Cirrus: . . . . . . . . .
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510/520 NA NA NA
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610/620 NA NA NA
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5401(AVGA1) 256 No NA NA NA
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5402(AVGA2) 512 Ok* Ok Ok Ok Ok* NA NA NA
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5410 NA NA NA
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5420 512 Ok Ok Ok Ok Ok* NA NA NA
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5422 NA NA NA
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5424 NA NA NA
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5426 2M Ok Ok Ok Ok Ok* Ok* NA NA
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5428 1M Ok Ok Ok Ok Ok* Ok* NA NA
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5429 NA NA
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5430 2M Ok Ok* Ok Ok Ok* Ok* NA NA
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5434 1M Ok Ok Ok Ok Ok* Ok* NA NA
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5452
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6205 NA NA NA NA
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6215
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6225
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6235
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6410 512 Ok Ok Ok Ok* NA NA NA NA
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6412
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6420
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6440
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Compaq: . . . . . . . . .
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IVGS
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AVGA 512 Ok Ok Ok Ok NA Ok* NA NA
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QVGA
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QVGA1024
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QVGA1280 2M Ok Ok* Ok* Ok* Ok* Ok* NA
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Everex:
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Genoa: . . . . . . . . .
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51/5200
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53/5400
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6100
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62/6300
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64/6600
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7900
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HMC: . . . . . . . . .
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HM86304 512 Ok Ok Ok* Ok NA NA NA NA
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||
HM86314
|
||
IIT: . . . . . . . . .
|
||
AGX-xx (VGA): 1M* Ok Ok Ok Ok NA NA NA NA
|
||
AGX10/11
|
||
AGX-14 1M Ok Ok Ok* Ok Ok Ok Ok NA
|
||
AGX-15 2M Ok Ok Ok* Ok Ok Ok Ok NA
|
||
AGX-16 2M Ok Ok Ok* Ok Ok Ok Ok NA
|
||
Matrox: . . . . . . . . .
|
||
Impres (VGA):
|
||
(ACC):
|
||
Ultima (VGA): Ok Ok* Ok Ok
|
||
(ACC): 2M Ok*
|
||
Imp Pl (VGA): Ok Ok* Ok Ok
|
||
(ACC): 2M
|
||
Media Vision: . . . . . . . . .
|
||
PG 1024 2¬M Ok*
|
||
PG 1280 4M No
|
||
MXIC: . . . . . . . . .
|
||
86000 512 Ok Ok Ok Ok NA NA NA NA
|
||
86010
|
||
86100
|
||
NCR: . . . . . . . . .
|
||
77C20
|
||
77C21
|
||
77C22E 4M Ok Ok Ok OK Ok NA NA Ok
|
||
77C22E+
|
||
77C32BLT 2M Ok Ok Ok Ok Ok Ok NA Ok
|
||
Oak: . . . . . . . . .
|
||
OTI-37C 256 Ok Ok! Ok OK NA NA NA
|
||
OTI-067 256 Ok Ok! Ok OK NA NA NA
|
||
OTI-077 1M Ok Ok! Ok Ok NA NA NA Ok
|
||
OTI-087 1M Ok Ok! Ok Ok Ok* Ok
|
||
Paradise/WD: . . . . . . . . .
|
||
PVGA1A 512 Ok Ok Ok Ok NA NA NA NA
|
||
WD90C00 NA NA NA
|
||
WD90C10 NA NA NA
|
||
WD90C11 512 Ok Ok Ok Ok NA NA NA Ok
|
||
WD90c2x
|
||
WD90C24 1M Ok Ok Ok Ok Ok* Ok Ok
|
||
WD90c26
|
||
WD90C30 1M Ok Ok Ok Ok NA NA NA Ok
|
||
WD90C31 1M Ok Ok OK Ok Ok* Ok* NA Ok
|
||
WD90c33 2M Ok Ok Ok Ok Ok Ok* Ok* Ok
|
||
Primus: . . . . . . . . .
|
||
P2000 2M Ok Ok* Ok Ok NA Ok* NA Ok
|
||
Realtek: . . . . . . . . .
|
||
RT3105 512 Ok Ok Ok Ok NA NA NA Ok
|
||
RT3106 NA NA NA
|
||
S3: . . . . . . . . .
|
||
86c911 NA
|
||
86c911A/24 1M Ok Ok Ok Ok Ok* Ok* Ok* NA
|
||
86c801 2M Ok Ok Ok Ok Ok* Ok* Ok* NA
|
||
86c805 NA
|
||
86c805p 1M Ok Ok Ok Ok* Ok* Ok* Ok* NA
|
||
86c928 4M Ok Ok Ok Ok Ok* Ok* Ok* NA
|
||
86c864 NA
|
||
86c864P 2M Ok Ok Ok Ok Ok* Ok* Ok* NA
|
||
86c964 NA
|
||
86c964P 2M Ok Ok Ok Ok Ok* Ok* Ok* NA
|
||
86c732
|
||
86c764
|
||
86c764P 1M Ok Ok Ok Ok Ok* Ok* Ok* NA
|
||
86c866
|
||
86c868
|
||
86c968
|
||
Sierra:
|
||
SC15064
|
||
SiS:
|
||
SG86c201 1M Ok Ok Ok Ok Ok Ok
|
||
Trident: . . . . . . . . .
|
||
8800BR NA NA NA NA
|
||
8800CS 512 Ok Ok Ok Ok NA NA NA NA
|
||
8900B 1M Ok Ok Ok Ok NA NA NA NA
|
||
8900C 1M Ok Ok Ok Ok NA NA NA NA
|
||
9000 512 Ok Ok Ok Ok NA NA NA NA
|
||
9000B NA NA NA NA
|
||
9000i 512 Ok Ok* Ok Ok NA NA NA NA
|
||
9000C 512 Ok Ok Ok Ok* NA NA NA Ok
|
||
8900CL NA NA NA
|
||
8900D 1M Ok Ok Ok Ok* NA NA NA Ok
|
||
9200CXr 1M Ok Ok Ok Ok* NA NA NA Ok
|
||
9400CXi 2M Ok Ok Ok Ok* NA NA NA Ok
|
||
9420DGi 1M Ok Ok Ok Ok* NA Ok
|
||
9440AGi 1M Ok Ok Ok Ok Ok Ok
|
||
9660XGi
|
||
Tseng: . . . . . . . . .
|
||
ET3000 512 Ok Ok* Ok Ok NA NA NA Ok
|
||
ET4000 1M Ok Ok Ok Ok NA NA NA Ok
|
||
ET4000W32 1M Ok Ok Ok OK Ok* Ok* NA Ok
|
||
ET4000W32i A NA
|
||
ET4000W32i B 2M Ok Ok Ok Ok Ok* No NA Ok
|
||
ET4000W32p A 2M Ok Ok Ok Ok Ok* Ok* Ok* Ok
|
||
ET4000W32p B 2M Ok Ok Ok Ok* Ok* Ok* Ok* Ok
|
||
ET4000W32p C
|
||
ET4000W32p D 1M Ok Ok Ok Ok Ok* Ok* Ok* Ok
|
||
UMC: . . . . . . . . .
|
||
UMC85c408 512 Ok Ok Ok Ok NA NA NA Ok
|
||
UMC85c418 1M Ok Ok Ok Ok NA NA NA Ok
|
||
Video7/Headland: . . . . . . . .
|
||
G2-GC205 256 Ok NA
|
||
HT-208 512 Ok Ok Ok Ok Ok* NA NA NA
|
||
HT-209
|
||
HT-216 1M Ok Ok Ok Ok Ok! NA NA NA
|
||
Weitek: . . . . . . . .
|
||
W5086
|
||
W5186 256 Ok Ok* No Ok
|
||
W5286 1M Ok Ok* No Ok Ok
|
||
P9000 2M No
|
||
P9100 (VGA) 2M Ok Ok* No Ok Ok
|
||
(ACC) 2M No
|
||
Yamaha: . . . . . . . .
|
||
6388
|
||
|
||
|
||
NA Not supported
|
||
Ok Works
|
||
No Does not work
|
||
! Doesn't work in mode 13h
|
||
* See notes below
|
||
|
||
|
||
Notes:
|
||
|
||
ARK Logic 1000VL/2000PV. Scroll in 256/High/Truecolor modes is in units of
|
||
4bytes. So far I haven't figured out how to use the BitBLT engine.
|
||
|
||
ATI 18800-1 & 28800-6. Horizontal scroll in PK4 mode (and PL4 for 18800-1)
|
||
is in units of 2 pixels. The 28800-6 requires extensive reprogramming of
|
||
mode 0Dh (timing problems when full memory is enabled).
|
||
I suspect that all combinations of the 28800-4/-5/-6 and BIOS id 4 or 5 can
|
||
be found. Examples ?
|
||
|
||
ATI Mach64 VGA. Scroll in PL4 modes is in units of 2 pixels. There are some
|
||
HiColor modes (72h,73h,75h), but they are partialy controlled by the Mach64
|
||
engine, so have been disabled for now
|
||
|
||
ATI Mach32 (68800-3). Blit & Line fails 24bit, but works in 4/8/15/16bits.
|
||
Mach32 can not tell bytes/scanline or interlace (write only regs)
|
||
The VGA mode 13h wraps at 64K.
|
||
|
||
ATI Mach64 (88800GX). Scroll is in units of 8 bytes. The clock probing works,
|
||
but where is the baseline? BitBLT and Line draw does not work in 24bit modes,
|
||
works with 32bpp modes. The 16color (packed 4bit) modes shows a blank screen
|
||
|
||
Avance Logic ALG2101. Blit (Fill) & Line fails in 64Kcolor modes. The cursor
|
||
is double height in interlaced modes
|
||
|
||
Avance Logic ALG2201/2228/2301. Blit, Line & Cursor fails because the graphics
|
||
engine registers are memory mapped (but to where ?).
|
||
The test for the ALG2228/2301 is suspect. It works for the two cards I have..
|
||
|
||
Acumos AVGA2 and Cirrus Logic 5402/5420 (rev 1). The cursor does not work in
|
||
the 320x200 modes due to the clock doubling
|
||
|
||
Cirrus Logic CL-GD5426. The cursor does not work in the 320x200 modes due to
|
||
the clock doubling, and also not in the 16Mcolor modes.
|
||
BitBlt does not work in the 16Mcolor modes (copy ok, fill fails).
|
||
BitBLT in 16c modes ?
|
||
|
||
Cirrus Logic CL-GD5430,CL-GD5434. The cursor does not work in the 320x200
|
||
modes due to the clock doubling, and also not in the 16Mcolor modes.
|
||
BitBlt does not work in the 16Mcolor modes (copy ok, fill fails), also not in
|
||
16color modes and mode 13h.
|
||
Note: Not tested in 32bit (RGBa) mode (too little RAM)/missing modes.
|
||
Note: On the 5430 the 16color modes blanked (all white)) the 2nd MB.
|
||
|
||
Cirrus Logic CL-GD6410. Can't id the clocks.
|
||
|
||
Compaq AVGA:
|
||
BitBLT only works in extended 256color modes.
|
||
|
||
Compaq QVision 1280. The AVGA modes (0-13h,29h,2Eh) wraps at 1Mb. Some modes
|
||
(800x600, 640x480 16Mcolors) are broken - BIOS problem. AVGA Blit only works
|
||
in mode 2Eh, fails in all other AVGA modes.
|
||
Scroll in packed modes (except mode 13h) is in units of 4 bytes
|
||
|
||
HMC 86c304. Horizontal scroll in 256c modes is in units of 4 bytes.
|
||
It is still uncertain if we can distinguish between the '304 and the '314
|
||
|
||
IIT (VGA). Memory limited to 512K due to scroll & lack of modes. Banking can
|
||
access 1Mb, but scroll wraps at 512K.
|
||
|
||
IIT-14/15/16. Scroll is in units of 4 bytes.
|
||
Only tested w/1024x768 8bit modes due to lack of BIOS modes.
|
||
|
||
Matrox VGA. Mode 13h is redefined to allow full memory access, but the new
|
||
mode has a 62 kHz line sync (I.e. we need a /2 on the dot-clock).
|
||
|
||
Matrix Ultima. The card is ID'd, but memory, DAC and clock is not checked.
|
||
No functionality expect for the ID (I.e. no modes...)
|
||
|
||
MediaVision PG1024. The ID rutine could generate "false positives" and will
|
||
not work if the adapter has not been setup for a base I/O address (538h/...)
|
||
Also does not check for 768K/2.25M (256color/16Mcolor versions).
|
||
|
||
All Paradise: Scroll in extended 256color modes is in units of 4 bytes
|
||
WD90c31: Cursor is horizontally compressed in 32K/64Kcolor modes. Blit fails
|
||
(copy ok, fill fails) in 32K/64K color modes.
|
||
WD90c33: Blit & Line fails in 16Mcolor modes
|
||
|
||
Paradise/WD90c24: Scroll in extended 256color modes is in units of 4 bytes
|
||
The cursor moves too slowly vertically in some Flat Panel modes (the 200/350
|
||
/400 line ones), probably due to vertical stretching.
|
||
|
||
Primus P2000. Interlaced modes have a problem scrolling into the 2nd Mb where
|
||
the image from the 1st Mb is superimposed on the "real" image from the 2nd
|
||
Mb. Blit fails in 32k/64Kcolor modes (copy is ok, fill fails).
|
||
|
||
Oak-37C,-67. Extended modes and R/W Banks could not be tested due to the low-
|
||
spec cards used. There are several different OAK-37 BIOSes with diff. modes!
|
||
Oak-087. The hardware cursor only works in 256color modes.
|
||
|
||
S3 86c924. Cursor has problems in clock doubled modes (mode $D and $13)
|
||
BitBLT & Line does not work in 16color (planar) and standard VGA modes
|
||
Scroll in 256&Highcolor modes is in units of 4 bytes
|
||
|
||
S3 86c801. Cursor has problems in clock doubled modes (mode $D and $13)
|
||
BitBLT & Line does not work in 16color (planar), standard VGA and 24bit modes
|
||
Scroll in 256&Highcolor modes is in units of 4 bytes
|
||
|
||
S3 86c805p. Cursor has problems in clock doubled modes (mode $D and $13)
|
||
and locks up in the packed 16color mode. BitBLT & Line does not work in
|
||
16color (planar), standard VGA and 24bit modes
|
||
Scroll in 256&Highcolor modes is in units of 4 bytes
|
||
|
||
S3 86c928. Cursor has problems in clock doubled modes (mode $D and $13)
|
||
Scroll in 256/High/Truecolor modes is in units of 4 or 8 bytes
|
||
BitBLT & Line does not work in 16color (planar) and standard VGA modes
|
||
|
||
S3 Vision864. The cursor is broken in all VGA and 16color (planar) modes
|
||
Scroll in 256/High/Truecolor modes is in units of 4 or 8 bytes
|
||
BitBLT & Line does not work in 16color (planar) and standard VGA modes
|
||
|
||
S3 Vision964. The cursor is broken in all modes using the S3 cursor (16color
|
||
(planar) and some 256color modes), as if the cursor map is stored wrong.
|
||
Scroll in 256/High/Truecolor modes is in units of 4 or 8 bytes
|
||
BitBLT & Line does not work in 16color (planar) and standard VGA modes
|
||
|
||
S3 Trio64 (86c764). Cursor has problems in clock doubled modes (mode $D and
|
||
$13). Scroll in 256/High/Truecolor modes is in units of 4 or 8 bytes
|
||
BitBLT & Line does not work in 16color (planar) and standard VGA modes
|
||
|
||
Trident. The newer Tridents must have some extra bits for the horizontal
|
||
timing registers. This can be seen in the 320x200 24bit mode where the
|
||
Horizontal Total rolls over and thus becomes very small.
|
||
The 9000i has an onchip 15/16bit DAC, but apparently no one can get it to work
|
||
- not even the BIOS/VESA modes. I expect it requires 16bits per pixel clock.
|
||
The 9000C, 8900CL and 8900D can not reliably be distinguished from each other.
|
||
The 8900B/8900C has a problem with images crossing 512K in 16color modes.
|
||
It is ok if the entire image is either below or above 512K
|
||
|
||
Trident 9440. The clocks are detected from the internal clock chip, but are
|
||
off by as much as 10%.
|
||
|
||
Tseng ET3000AX. Mode 0Dh wraps at 256K. This mode does not appear to be
|
||
reprogrammable (unlike mode 13h and the other 16color modes).
|
||
|
||
Tseng ET4000/W32.
|
||
Cursor is too short horizontally in 24bit modes and 15/16bit modes.
|
||
Blit: Fill doesn't work in 24bit modes. Copy only works down left!!
|
||
Blit doesn't work in 16c modes
|
||
|
||
Tseng ET4000/W32i revB. Cursor has a coloumn of junk below the actual cursor
|
||
in interlaced modes (Happens with the W32i rev B & W32p rev A).
|
||
Also cursor is too short horizontally in 15/16/24bit modes and too large
|
||
in mode 13h (pixel doubling).
|
||
Blit is broken in all modes (Fill appears to work in 8/15/16bit modes, copy
|
||
fails in all modes - destination block is often "broken up" or "dirty").
|
||
|
||
Tseng ET4000/W32p revA. Cursor has a coloumn of junk below the actual cursor
|
||
in interlaced modes (Happens with the W32i rev B & W32p rev A).
|
||
The BitBlt does not copy "backwards". Lines appears "dotted".
|
||
Cursor is too short horizontally in 24bit modes
|
||
|
||
Tseng ET4000/W32p revB. Blit: Fill doesn't work in 24bit. Blit & lines fails
|
||
totally in 16color modes. Lines appears dotted.
|
||
Cursor hor. short in 15/16/24 bit modes, too wide in mode 13h.
|
||
Some problems w/Analysis due to the Chrontel DAC
|
||
Horizontal Scroll in "16bit DAC video path" mode is in units of 2 (or 4?) bytes
|
||
|
||
Tseng ET4000/W32p revD. Blit: Fill doesn't work in 24bit. Blit & lines fails
|
||
totally in 16color modes. Lines appears dotted.
|
||
Cursor hor. short in 24 bit modes, too wide in mode 13h.
|
||
Horizontal Scroll in "16bit DAC video path" mode is in units of 2 bytes
|
||
|
||
UMC UM85c408,UM85c418. Some of the modes are weird (BIOS problem).
|
||
|
||
Video7 HT-208 (actually G2 208). Hardware cursor is horizontally compressed in
|
||
256color modes and blank in mode 13h (the last is also true for the HT-216).
|
||
Also, I have my doubts as to the clock selection on the '208.
|
||
|
||
Weitek W5x86,P9100(VGA): Scroll only works in the first 256K (as std VGA).
|
||
Horizontal Scroll in ext 256color modes is in units of 4 bytes
|
||
|
||
|
||
|
||
DACs tested:
|
||
ID 8bit 15b 16b 24b 32b Cursor MPlex Clock
|
||
Acumos:
|
||
ADAC1 NA NA NA NA
|
||
AT&T: . . . . . . . . .
|
||
20c490 Ok Ok Ok Ok Ok1 NA NA NA NA
|
||
20c491 Ok Ok Ok Ok Ok1 NA NA NA NA
|
||
20c492 Ok NA Ok Ok OK1 NA NA NA NA
|
||
20c493 NA NA NA NA NA
|
||
20c498 NA
|
||
21c498 NA
|
||
22c498 NA
|
||
20c504
|
||
20c505
|
||
ATI: . . . . . . . . .
|
||
ATI68830 NA
|
||
ATI68860 Ok Ok Ok Ok Ok NA Ok
|
||
ATI68875 pin NA
|
||
ATI68880
|
||
Avance Logic: . . . . . . . . .
|
||
ALG1101 Ok* NA NA pin NA NA NA NA NA
|
||
ALG1201 Ok Ok Ok Ok1 NA NA NA
|
||
ALG1301
|
||
Brooktree: . . . . . . . . .
|
||
Bt477 Ok Ok NA NA NA NA NA NA NA
|
||
Bt481 Ok Ok Ok Ok Ok1 NA NA NA NA
|
||
Bt482 NA
|
||
Bt484
|
||
Bt485 Ok Ok Ok* Ok* NA Ok* Ok No NA
|
||
Chrontel: . . . . . . . . .
|
||
CH8391 Ok Ok Ok Ok Ok1 NA NA NA Ok
|
||
CH8398 Ok NA Ok Ok Ok1 NA NA No Ok
|
||
Chips&Tech:
|
||
64300 Internal OK Ok Ok Ok1 NA NA Ok
|
||
Cirrus Logic: . . . . . . . . .
|
||
CL-GD5200
|
||
542x internal Ok NA Ok Ok Ok NA NA NA Ok
|
||
543x internal
|
||
Diamond: . . . . . . . . .
|
||
SS24 Ok NA Ok Ok Ok1 NA NA NA NA
|
||
IBM:
|
||
RGB514
|
||
RGB524 Ok
|
||
RGB525
|
||
RGB526
|
||
RGB528
|
||
RGB530
|
||
RGB561
|
||
RGB624
|
||
ICS: . . . . . . . . .
|
||
5300
|
||
5301 Ok NA Ok Ok OK1 NA NA NA NA
|
||
5342
|
||
IC Works:
|
||
w30c498
|
||
w30c516 Ok Ok Ok Ok Ok NA Ok NA
|
||
Paradise/WD:
|
||
WD90c24 Intern Ok Ok* Ok* NA NA NA
|
||
Oak: . . . . . . . . .
|
||
OTI-66
|
||
OTI-66HC Ok NA Ok Ok NA NA NA
|
||
MUSIC: . . . . . . . . .
|
||
MU9c1710
|
||
MU9c1880
|
||
MU9c4870
|
||
MU9c4910 Ok NA Ok Ok Ok1 NA NA NA NA
|
||
MU9c9910 Ok NA Ok Ok Ok1 NA NA NA Ok
|
||
S3: . . . . . . . . .
|
||
86c708 (GenDAC)
|
||
86c716 (SDAC) Ok NA Ok Ok Ok* NA Ok
|
||
SGS-Thompson: . . . . . . . . .
|
||
STG1700 NA
|
||
STG1702 Ok Ok Ok Ok Ok1 NA NA NA
|
||
STG1703 Ok Ok NA
|
||
Sierra: . . . . . . . . .
|
||
SC11481 pin NA NA NA NA NA
|
||
SC11486 NA NA NA NA NA NA
|
||
SC11488 pin NA NA NA NA NA
|
||
SC11482 pin NA NA NA NA NA
|
||
SC11483 NA NA NA NA NA NA
|
||
SC11484 pin NA NA NA NA NA
|
||
SC11485 pin NA NA NA NA
|
||
SC11487 Ok NA Ok Ok NA NA NA NA NA
|
||
SC11489 pin NA NA NA NA
|
||
SC15021 Ok Ok Ok Ok Ok1 NA NA
|
||
SC15025 Ok Ok Ok Ok Ok1 NA NA NA
|
||
TI: . . . . . . . . .
|
||
TLC34058
|
||
TLC34075 Ok pin NA NA No NA NA No NA
|
||
TVP3010
|
||
TVP3020
|
||
TVP3025 Ok Ok Ok Ok No No Ok No Ok
|
||
TVP3026
|
||
Trident: . . . . . . . . .
|
||
TKD8001 Ok Ok Ok Ok Ok1 NA NA NA NA
|
||
9000i Internal Ok NA No No NA NA NA NA NA
|
||
9200CXr Intern Ok Ok Ok Ok Ok1 NA NA NA NA
|
||
9400CXi Intern Ok NA Ok Ok Ok1 NA NA NA NA
|
||
9420DGi Intern Ok NA Ok Ok Ok1 NA NA NA
|
||
9440AGi Intern Ok NA NA
|
||
UMC: . . . . . . . . .
|
||
UM70c178 Ok Ok Ok NA NA NA NA NA
|
||
UM70c188 Ok Ok Ok Ok1 NA NA NA NA
|
||
Winbond: . . . . . . . . .
|
||
W82c490 Ok* NA Ok Ok Ok1 NA NA NA NA
|
||
|
||
NA Not supported
|
||
pin Supported by a pin
|
||
|
||
|
||
Comments:
|
||
Ok1 - The DAC is switched into a 24bit mode, but the colors are swapped
|
||
around. This may be a problem with the dac mode (BGR rather than RGB)
|
||
or with the DAC starting from the wrong byte because the left overscan
|
||
area is also seen by the DAC
|
||
|
||
The Trident TKD8001 can be sent into a "no return" state, which I (and the
|
||
BIOS) can't return it from....
|
||
|
||
The Avance Logic ALG1101 id "ID'd" by assuming that any ALG chips that reports
|
||
a standard DAC must have an ALG1101... It is unclear how 16bit mode is set.
|
||
|
||
The Brooktree Bt484/485 can be switched between 8/15/16/32 bit modes, however
|
||
due to the different pixel multiplexing used for these modes the display
|
||
timings are often seriously disturbed. Also the DAC must be in "VRAM" mode.
|
||
|
||
The S3 SDAC can be switched between 8/15/16/32 bit modes, however due to the
|
||
different pixel multiplexing used for these modes the display timings are
|
||
often seriously disturbed.
|
||
|
||
Paradise/WD90c24 internal DAC can be switched to 15/16bit mode, but double
|
||
clocking mode (16bits/VCLK) must be set for it to work.
|
||
|
||
The Winbond W82C490 is ID'd as "AT&T 20c492", which is close enough
|
||
|
||
The ATI 68860 is ID'd from the Mach64 status regs. Switch to 15/16/24/32
|
||
bit mode works, but changes the horizontal resolution.
|
||
|
||
|
||
Clock chips:
|
||
|
||
Id: Rd:
|
||
DCS2824 Ok NA
|
||
ICD20c61 Ok NA
|
||
ICS2595
|
||
SC11412
|
||
|
||
The DCS2824 and ICD20c61 are both identified as "ICD20c61" which is ok as the
|
||
DCS2824 is an OEM'd ICS chip. The ICD20c61 and ICD20c61A arte however id'd.
|
||
|
||
|
||
|
||
|
||
|
||
Generel Problems:
|
||
|
||
Search for modes doesn't understand 2 and 4 color modes.
|
||
In general 2 and 4 color modes are only supported partially, and
|
||
fixing it is NOT a top priority :-).
|
||
|
||
Mode 0Fh and 11h (and other 2 color modes) has problems in some cases.
|
||
|
||
Mode 13h has a pixel double function. Most chips use Master Clock/2
|
||
(3C4h index 1 bit 3) for this, but some chips has their own system.
|
||
This causes problems with mode analysis.
|
||
|
||
Some of the extended modes may only be implemented on
|
||
some otherwise similar boards, depending on make and BIOS rev.
|
||
|
||
|
||
Utilities:
|
||
|
||
DMPMEM:
|
||
|
||
DMPMEM dumps the ROMs to files named DMPxxxx.ROM (where xxxx is
|
||
the hex address of the ROM Ie. DMPC000.ROM for VGA).
|
||
Interrupt and Font addresses are saved to the file VECTORS.ROM
|
||
As Mouse drivers, national keyboard drivers, memory managers
|
||
etc can obscure the results the program should be run on a clean
|
||
system (empty CONFIG.SYS and AUTOEXEC.BAT say from a floppy).
|
||
|
||
|
||
TABLE:
|
||
|
||
Takes the register sets dumped to the file REGISTER.VGA and writes
|
||
them to REGISTER.TBL. If a register has the same value in all register
|
||
sets, the value is only shown the first time.
|
||
As the same file names are used every time you will have to delete
|
||
and rename the files as needed.
|
||
|
||
|
||
VESALIE:
|
||
|
||
Can change the version and amount of memory reported by your VESA driver.
|
||
Can also hide the VESA driver, so other applications don't see it.
|
||
Parameters: /0 /1 /2 Makes the VESA driver report a specific VESA
|
||
VBE version (1.00, 1.01 or 1.02).
|
||
/on /off Turns the VESA VBE on or off. By turning the
|
||
VBE off you can prevent applications from using
|
||
the VESA interface. Also if you try to load
|
||
another VESA driver, it may refuse to install
|
||
while the original driver is visible.
|
||
/Mxx Forces the VESA driver to report the specified
|
||
amount (in Kbytes) of video memory.
|
||
/U Unload the VESALIE program.
|
||
|
||
Note that this NOT a VESA driver, it just changes the behavior of
|
||
an already installed driver.
|
||
|
||
|
||
SHOWTEST:
|
||
|
||
Analyses the results in the .tst files generated when WHATVGA is
|
||
run with the /a option (WHVGAxxx.TST).
|
||
Parameters: SHOWTEST [tstfil] [outfil] [/r]
|
||
When run without parameters it lists the test files in the current
|
||
directory, showing the filename, chipset, memory, DAC and chipname.
|
||
When run with the name of a test file, the test results in this file
|
||
are written to the outfile. If no outfile is specified, the name of
|
||
the test file is used, with the extension changed to .txt
|
||
If the /r switch is used the register dumps for each mode is written
|
||
to the outfile (or to .reg).
|
||
|
||
|
||
To do:
|
||
- S3 968/IBM RGB524 combo needs a lot of work
|
||
- Damn Weitek (W5x86) scroll function
|
||
- ET4000/W32 BitBLT/Linedraw
|
||
- Attemp W5x86/Trident/ARK BitBLT/Line draw
|
||
- Further work on CT64300, AGX-016, P9000, Matrox, PG1024/1280, Appian,
|
||
Alliance, SuperMAC and others
|
||
- Figure out how to deal with the AGX-16 which has TWO DACs!!
|
||
|
||
|